Title: Capotauro: A High-Redshift Galaxy Seeded by a Primordial WCI Scaffold Description/Abstract: This preprint provides a theoretical resolution to the enigmatic nature of Capotauro (Gandolfi et al. 2025), a JWST-detected object that fundamentally challenges CDM galaxy formation timescales. The reported observational ambiguity—debating between a record-breaking z ∼ 32 galaxy and a statistically improbable 2-kpc halo brown dwarf—is identified here as a primary signature of Geometric Inertia. By applying the Weyl Curvature Imprint (WCI) framework and the Jussà-Vila Ansatz, we demonstrate that Capotauro is not an isolated statistical fluke but a Primordial Geometric Node. This paper argues that: Geometric Redshifting: The extreme >3 mag flux drop is the result of a frequency-dependent attenuation (Geometric Extinction) induced by the node's curvature gradient, rather than expansion-driven redshift or dust alone. Primordial Scaffolding: The "impossible" formation of a massive galaxy within 120 Myr is facilitated by a pre-existing topological "scaffold. " This geometric seed accelerates baryonic collapse immediately post-decoupling, bypassing hierarchical growth constraints and removing the need for Dark Matter. Unified Solution: The WCI framework unifies the local halo and high-redshift interpretations, treating Capotauro as a vacuum-excited node within the Scale Bridge of the Milky Way or the cosmic web. We provide strictly falsifiable predictions regarding Capotauro’s morphological anisotropy (q ∼ 0. 64) and its alignment with CMB anisotropies. This work positions Capotauro as the "smoking gun" for the transition from particle-based cosmology to a geometric, topological understanding of the early universe. Keywords: JWST, Capotauro, Weyl Curvature Imprint, WCI, Jussà-Vila Ansatz, Geometric Inertia, Primordial Scaffolding, High-redshift galaxies, Dark Matter alternatives.
BERTRAN ALEX (Wed,) studied this question.